Authors: Riikka P. Kinnunen, Carly D. Ziter, Barbara Frei
Abstract: Cities are particularly vulnerable to the impacts of biodiversity loss and climate change. Urban greenspaces are important ecosystems that can conserve biodiversity and help offset the carbon footprint of urban areas. However, despite large-scale tree planting and restoration initiatives in cities, it is not well known where trees or vegetation should be planted or restored to achieve multiple benefits. We considered urban greenspaces as nature-based solutions for urban climate mitigation and biodiversity conservation planning. Using bivariate mapping, we examined the spatial synergies and trade-offs between bird functional diversity and carbon storage in ten Canadian cities spanning a gradient of geography and population, and modelled the relationships between vegetation attributes and both bird diversity and amount of carbon. We found carbon and biodiversity are weakly positively correlated across the ten cities, however, this relationship varied in strength, direction and significance. Our maps highlight areas within our target cities where greenspaces could be managed, restored, or protected to maximize carbon storage and conserve biodiversity. Nationwide, our results also show that forest management strategies that promote increases in canopy cover and the proportion of needle-leaved species in urban greenspaces are potential win-win strategies for biodiversity and carbon. Our study shows NbS strategies are not always generalizable across regions. National policies should guide municipalities and cities using regional priorities and science advice, since a NbS promoting biodiversity in one region may, in fact, reduce it in another.
These interactive results are a companion to the above study. Maps on these pages show the results of bivariate analysis along with other features of urban greenspaces across various Canadian cities.
Tabs: Tabs at across top of this page indicate which cities you can explore.
Maps: Each tab shows a map with the bivariate analysis on the left and a series of urban greenspace features mapped on the right. You can hover over tiles for more information and pan and zoom to more closely explore particular areas.
Details: For a detailed overview of the data and how to use bivariate maps, see the Details tab.
Dashboard created by Steffi LaZerte using Quarto; Last compiled 2024-08-28
A bivariate map uses two colours combined to show how two different variables interact on the landscape.
Here we explore carbon storage and bird functional species richness in urban greenspaces.
Each variable is binned into 5 different categories (1, 2, 3, 4, and 5). Then each site is assigned a combined score, for example, a site with a 1-1 score indicates that it has low carbon storage as well as low species richness.
This in turn results in identifying hotspots, coldspots, and areas high in one of the two variables.
Modified data used for data analyses. Data was compiled from multiple sources:
eBird data: eBird Basic Dataset. (2022). https://ebird.org
Carbon data: Sothe, C., Gonsamu, A., Snider, J., Arabian, J., Kurz, W. A., & Finkelstein, S. (2021). Carbon map and uncertainty in forested areas of Canada, 250m spatial resolution (Version 1) [Data set]. 4TU.ResearchData. https://doi.org/10.4121/14572929.V1
Vegetation attributes data: Beaudoin, A., Bernier, P. Y., Villemaire, P., Guindon, L., & Guo, X. J. (2018). Tracking forest attributes across Canada between 2001 and 2011 using a k nearest neighbors mapping approach applied to MODIS imagery. Canadian Journal of Forest Research, 48(1), 85-93. https://open.canada.ca/data/en/dataset/ec9e2659-1c29-4ddb-87a2-6aced147a990
Bird life-history data for functional diversity analyses: Myhrvold, P. N., Baldridge, E., Chan, B., Sivam, D., L. Freeman, D., & Ernest, S. K. M. (2016). An amniote life-history database to perform comparative analyses with birds, mammals, and reptiles (Version 1). Wiley. https://doi.org/10.6084/m9.figshare.c.3308127.v1
Tobias, J. A., Sheard, C., Pigot, A. L., Devenish, A. J., Yang, J., Sayol, F., … & Schleuning, M. (2022). AVONET: morphological, ecological and geographical data for all birds. Ecology Letters, 25(3), 581-597. The AVONET dataset and all code for figures and analyses in this manuscript are archived on Figshare https://figshare.com/s/b990722d72a26b5bfead
Urban area boundary: Statistics Canada. Population Centre boundary files. https://www12.statcan.gc.ca/census-recensement/2021/geo/sip-pis/boundary-limites/index2021-eng.cfm?year=21